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Example Questions
Example Question #1 : Help With Other Circulatory Physiology
Which blood protein is used to maintain the osmotic pressure of the blood?
Albumin
Immunoglobulin
Fibrinogen
Hemoglobin
Vasopressin
Albumin
In addition to transporting steroids and some fats, albumin is also responsible for maintaining the osmotic pressure of the blood. It is the most abundant protein in the plasma and helps to draw water back into the lumen of the blood vessels.
Fibrinogen is the zymogen of fibrin, an essential clotting protein. Immunoglobulins, also called antibodies, help detect pathogens and tag them for destruction. Hemoglobin is found within erythrocytes and serves to transport oxygen. Vasopressin is not a blood protein; it is a peptide hormone secreted by the posterior pituitary gland. Vasopressin acts on the kidney to increase the hydrostatic pressure of the blood by retaining water, but does not affect the osmotic pressure of the blood in a significant way.
Example Question #2 : Help With Other Circulatory Physiology
Which of the following are true regarding the pulmonary circuit?
The right ventricle sends oxygen-poor blood to the lungs
The left ventricle sends oxygen-poor blood to the lungs
The right ventricle sends oxygen-rich blood to the lungs
The left ventricle sends oxygen-rich blood to the lungs
None of these
The right ventricle sends oxygen-poor blood to the lungs
Oxygen-poor blood returns from the body through the superior and inferior venae cavae, which load blood into the right atrium. Blood then flows into the right ventricle, and oxygen-poor blood is pumped through the pulmonary arteries into the lungs, where blood becomes oxygenated. From the lungs, blood returns to the left side of the heart through the pulmonary veins into the left atrium. Remember, regardless of whether blood is oxygen-rich or oxygen-poor, all arteries carry blood away from the heart, and veins deliver blood back to the heart.
Example Question #3 : Help With Other Circulatory Physiology
Which of the following structures are perfused by systemic circulation?
Lungs
All of these
Kidney
Brain
Heart
All of these
The systemic circulation is the part of the cardiovascular system that pumps oxygenated blood from the left ventricle out to the rest of the body to all the tissues that need blood, including the brain, kidney, heart, and lungs. Though the lungs are part of the pulmonary circuit, involved in gas exchange, the cells of the lungs also need blood. There are alveolar cells, macrophages, and connective tissue cells that need blood for metabolism. Also, the myocardium, needs blood (and oxygen) too since it is continuously using lots of ATP to generate contractile force.
Example Question #71 : Circulatory Physiology
During ventricular contraction, the papillary muscles are __________, the chordae tendinae are __________, and the mitral valve is __________.
tense . . . relaxed . . . closed
relaxed . . . relaxed . . . open
tense . . . tense . . . open
relaxed . . . relaxed . . . closed
tense . . . tense . . . closed
tense . . . tense . . . closed
During ventricular contraction, both atrioventricular valves (the mitral and tricuspid valve) should be closed in order to prevent backflow of blood into the atria. The papillary muscles and chordae tendinae must both be tense in order to keep this valve closed.
Example Question #3 : Help With Other Circulatory Physiology
Which of the following is not a formed element of blood?
Lymphocytes
Platlets
Plasma
Monocytes
Plasma
Plasma is not a formed element of blood. Plasma is the extracellular matrix of blood. Platelets are small fragments of cells that assist clotting. Lymphocytes are a type of white blood cells, as are monocytes. Red blood cells are the other formed element found in blood.
Example Question #4 : Help With Other Circulatory Physiology
What are erythrocytes?
White blood cells
Platelets
Extracellular matrix of blood
Red blood cells
Red blood cells
Erythrocytes are also known as red blood cells. White blood cells come in a variety of types such as lymphocytes, monocytes, eosinophils, neutrophils, and basophils. Platelets are small fragments of cells that assist clotting. The extracellular matrix of blood is plasma.
Example Question #72 : Circulatory Physiology
What are eosinophils?
A type of red blood cell
A type of white blood cell that contain granules that cause inflammation when released
A type of white blood cell that are typically involved in fighting parasite infections
A type of white blood cell that contains granules that are used to kill infectious organisms
A type of white blood cell that are typically involved in fighting parasite infections
Eosinophils are white blood cells that are involved in fighting parasitic infections. Basophils cause inflammation when their histamine-containing granules are released. Neutrophils contain granules that are used to kill infectious organisms. The only type of red blood cell is an erythrocyte. Note that eosinophils, basophils, and neutrophils are named after the types of stains for which they show preferential affinity (eosinophils have a high affinity for the stain eosin, basophils are best seen when stained with a basic dye, and neutrophils are best seen when stained with a neutral dye).
Example Question #73 : Circulatory Physiology
What is the composition of a red blood cell's plasma membrane?
80% protein, 17% lipid, 4% carbohydrate
80% protein, 17% lipid, 4% carbohydrate
18% protein, 79% lipid, 3% carbohydrate
76% protein, 24% lipid, 0% carbohydrate
18% protein, 79% lipid, 3% carbohydrate
The correct composition of a red blood cell membrane is 18% protein, 79% lipid, and 3% carbohydrate. A myelin membrane around nerve cells is 76% protein and 24% lipid and an inner mitochondiral membrane is 80% protein, 17% lipid, and 4% carbohydrate.
Example Question #74 : Circulatory Physiology
Which of the following is not a factor that affects blood pressure?
Blood volume
Cardiac output
Blood type
Peripheral resistance
Blood viscosity
Blood type
Factors that affect blood pressure include: cardiac output, blood volume (approximately 5 liters for the average adult), blood viscosity, and peripheral resistance. Blood type (A, AB, B, O) plays no role in a person's blood pressure.
Example Question #75 : Circulatory Physiology
From where do the left and right coronary arteries branch?
Descending aorta
Directly from the left ventricle
Pulmonary artery
Aortic root
Ascending aorta
Aortic root
The left and right coronary arteries branch from the aortic root. This is the portion of the aorta just beyond the aortic valve. Since these arteries supply the heart and the heart must supply the rest of the body, it makes sense for the heart to have top priority.
The ascending aorta just after the aortic root, but before the aortic arch, is the only part of the aorta without branching. The pulmonary artery takes blood to the lungs to be oxygenated. The descending aorta has numerous branches supplying the spinal cord and the rest of the body.
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